“Our calculations show that controlling HFC growth can avoid a significant amount of warming in this century, at least comparable to CO2 mitigation at 2050, and almost 50 percent of CO2 mitigation by 2100,” stated Yangyang Xu from the Scripps Institution of Oceanography, lead author of the study.

HFC are a small contributor to global warming today, but they are the fastest growing greenhouse gas in many countries, including the US, EU, China, and India. HCFs are used as refrigerants, propellants, and cleaning and foam blowing agents; many are, molecule-for-molecule, thousands of times more powerful at causing warming than CO2.

Study co-author Dr. V. Ramanathan stated, “It is still possible to avert disastrous climate changes including extreme sea level rise. We have to simultaneously cut down CO2 and the short-lived climate pollutants: HFCs, methane, tropospheric ozone, and black carbon. HFCs mitigation emerges as an attractive low hanging fruit for mitigating warming.” Dr. Ramanathan is Distinguished Professor at the Scripps Institution of Oceanography, University of California, San Diego. He discovered the greenhouse effect of chlorofluorocarbons (CFCs) in 1975, which paved the way for identifying the greenhouse effect of other non-CO2 pollutant gases including HFCs and methane.

"This timely paper shows how important reducing high-GWP HFCs can be for avoiding future warming. It confirms the UNEP-World Meteorological Organization assessment on avoided warming from black carbon and methane and tropospheric ozone, then extends the analysis by adding the avoided warming from reducing high-GWP HFCs, concluding that this will avoid another 0.1°C of warming by 2050, and up to 0.5°C by the end of the century," stated Dr. A. Ravishankara, Director at the Chemical Sciences Division of the NOAA Earth System Research Laboratory.

Nobel Laureate Mario Molina stated, "We've known for several decades that some of the HFCs developed to replace ozone-depleting CFCs are powerful climate change agents, but this is the first calculation showing how much global warming we can avoid by reducing emissions of these chemicals, helping us to address the challenge in the near-term as well as through the end of the century." Dr. Molina is Distinguished Professor of Chemistry and Biochemistry at University of California, San Diego; he shared the Nobel Prize in Chemistry in 1995 for his work on the impact of CFCs on the stratospheric ozone layer.

“The findings of our study provide even greater justification for phasing-down HFCs under the Montreal Protocol,” stated Durwood Zaelke, co-author of the study and President of the Institute for Governance & Sustainable Development. “It’s the biggest, fastest, and cheapest climate mitigation available to the world today.”

Earlier this month at the first-ever summit between President Obama and President Xi, the two presidents agreed to work together to phase down HFCs under the Montreal Protocol. More than 100 other Parties to the Montreal Protocol have expressed support for reducing HFCs. A formal discussion group was formed this week during the Montreal Protocol Open-ended Working Group meeting to discuss how best to deal with HFCs, an important milestone in the effort to reach consensus on the amendment.

“The prominence that the President gave HFCs in his speech and his climate plan makes it clear that he will be continuing his personal diplomacy to ensure a swift victory under the Montreal Protocol,” added Zaelke. "Phasing down HFCs will be seamless, and won't even be noticed by the consumers.”